Probabilistic Abduction for Visual Abstract Reasoning via Learning Rules in Vector-symbolic Architectures (2401.16024v1)
Abstract: Abstract reasoning is a cornerstone of human intelligence, and replicating it with AI presents an ongoing challenge. This study focuses on efficiently solving Raven's progressive matrices (RPM), a visual test for assessing abstract reasoning abilities, by using distributed computation and operators provided by vector-symbolic architectures (VSA). Instead of hard-coding the rule formulations associated with RPMs, our approach can learn the VSA rule formulations (hence the name Learn-VRF) with just one pass through the training data. Yet, our approach, with compact parameters, remains transparent and interpretable. Learn-VRF yields accurate predictions on I-RAVEN's in-distribution data, and exhibits strong out-of-distribution capabilities concerning unseen attribute-rule pairs, significantly outperforming pure connectionist baselines including LLMs. Our code is available at https://github.com/IBM/learn-vector-symbolic-architectures-rule-formulations.
- Michael Hersche (29 papers)
- Francesco di Stefano (2 papers)
- Thomas Hofmann (121 papers)
- Abu Sebastian (67 papers)
- Abbas Rahimi (44 papers)